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| United States Patent | 4150857 |
| Link to this page | http://www.wikipatents.com/4150857.html |
| Inventor(s) | Dester; Delbert D. (Washington, IL);
Wright; Paul L. (Peoria, IL) |
| Abstract | An endless track assembly for a track-type vehicle comprises a plurality of
track shoes secured to an articulated chain. The links of the chain are
pivotally interconnected together by pin and bushing assemblies adapted to
engage a drive sprocket of the vehicle. A cushioning lug is secured to
each track shoe, intermediate each pair of adjacent pin and bushing
assemblies, for attenuating the noise level of the track assembly upon its
engagement with the drive sprocket and for aiding in cleaning the
sprocket. Each cushioning lug assembly comprises a resilient cushioning
block composed of an elastomeric material, a cap mounted on the cushioning
block and offset arcuate bearing flanges and a cleaning flange formed
integrally on the cap. |
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Title Information  |
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Drawing from US Patent 4150857 |
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Armored cushioning lug for track-type vehicles |
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| Publication Date |
April 24, 1979 |
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| Filing Date |
January 16, 1978 |
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Title Information |
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| Market Size |
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Estimate the gross annual revenues of the relevant market
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| Reasonable Royalty |
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Public's "Guesstimation" of Royalty Value
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Market Review |
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Technical Review |
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Claims |
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The embodiment of this invention in which an exclusive property or
privilege is claimed are defined as follows:
1. An endless track assembly for a track-type vehicle comprising
a drive sprocket comprising a plurality of circumferentially adjacent
teeth,
a plurality of track shoes,
an articulated chain secured to said track shoes comprising a plurality of
pivotally interconnected links,
pin and bushing means pivotally interconnecting adjacent links together and
positioned to engage the teeth of said drive sprocket for driving said
track assembly,
cushioning lug means secured to at least some of said track shoes,
intermediate adjacent pairs of said pin and bushing means, for attenuating
the noise level of said track assembly upon engagement with said drive
sprocket, said lug means comprising
resilient spring means,
cap means mounted on said spring means and adapted to engage the teeth of
said drive sprocket,
arcuately shaped bearing flange means secured on said cap means to extend
transversely relative to pivot axes of said pin and bushing means and
having a profile at least generally conforming to a respective root of
said drive sprocket defined between each pair of circumferentially
adjacent teeth thereof, and
cleaning and reinforcing flange means secured on said cap means and
disposed transversely relative to said bearing flange means for
continuously cleaning the roots of said drive sprocket upon rotation
thereof.
2. The endless track assembly of claim 1 wherein said bearing flange means
comprises a pair of flanges disposed on either side of said cleaning and
reinforcing flange means.
3. The endless track assembly of claim 2 wherein said reinforcing flange
means constitutes a single flange extending at least substantially the
full width of said lug means.
4. The endless track assembly of claim 2 wherein said pair of flanges are
further disposed in offset relationship relative to each other and extend
at least substantially the full length of said lug means.
5. The endless track assembly of claim 1 further comprising a mounting
plate secured to said track shoe and wherein said spring means is mounted
on and secured to said mounting plate.
6. The endless track assembly of claim 5 wherein said spring means
constitutes an elastomeric block and further comprising at least one nut
embedded in said block and a bolt extending through said track shoe and
said mounting plate and threadably attached to said nut.
7. The endless track assembly of claim 6 further comprising a flange formed
on the periphery of each of said cap means and said plate to overlie edges
of said block for aiding in retaining said block in position therebetween.
8. The endless track assembly of claim 6 wherein said block is bonded
between said cap means and said plate.
9. A cushioning lug adapted to be secured to a track shoe of an endless
track assembly for attenuating the noise level thereof comprising
resilient spring means,
cap means mounted on said spring means,
arcuately shaped bearing flange means secured on said cap means to extend
at least substantially across the length thereof adapted to engage teeth
of a drive sprocket, and
cleaning and reinforcing flange means secured on said cap means and
disposed transversely relative to said bearing flange means adapted for
continuously cleaning roots of a drive sprocket upon rotation thereof.
10. The cushioning lug of claim 9 wherein said bearing flange means
comprises a pair of flanges disposed on either side of said cleaning and
reinforcing flange means.
11. The cushioning lug of claim 10 wherein said reinforcing flange means
constitutes a single flange extending at least substantially the full
width of said lug means.
12. The cushioning lug of claim 10 wherein said pair of flanges are further
disposed in offset relationship relative to each other and extend at least
substantially the full length of said lug means.
13. The cushioning lug of claim 9 further comprising a mounting plate and
wherein said spring means is mounted on and secured to said mounting
plate.
14. The cushioning lug of claim 13 wherein said spring means constitutes an
elastomeric block and further comprising at least one nut embedded in said
block and adapted to be secured to a track shoe by a bolt.
15. The cushioning lug of claim 14 further comprising a flange formed on
the periphery of each of said cap means and said plate to overlie edges of
said block for aiding in retaining said block in position therebetween.
16. The cushioning lug of claim 14 wherein said block is bonded between
said cap means and said plate.
17. A cushioning lug means adapted to be secured to a track shoe of an
endless track assembly for attenuating the noise level thereof comprising
resilient spring means,
cap means mounted on said spring means, and
a plurality of arcuately shaped flanges secured on said cap means to extend
at least substantially across the length thereof adapted to engage teeth
of a drive sprocket, said flanges being disposed in offset relationship
relative to each other to distribute wear effects on the sprocket to
increase the service life thereof. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
This invention relates to an endless track assembly for a track-type
vehicle having a cushioning lug secured to each track shoe thereof to
attenuate the noise level of the track assembly during operation.
A conventional track assembly comprises a plurality of track shoes secured
to an articulated chain with the chain adapted to engage a drive sprocket.
Engagement of the chain with the drive sprocket gives rise to high noise
levels. In addition, engagement of drive bushings of the chain with the
sprocket tends to unduly wear the bushings whereby they require periodic
repair or replacement.
U.S. Pat. No. 3,887,244, assigned to the assignee of this application, for
example, discloses combined cushioning and impact lugs secured to each
track shoe of a track assembly to reduce noise levels. As also taught in
such patent, it has proven further desirable to fully protect an
elastomeric block of each cushioning lug and to extend the service life
thereof by protecting it with a wear-resistant metallic cap. Prior art lug
arrangements of this type may not provide the desired substantial and
continuous bearing contact as between the cap and the teeth of the drive
sprocket. In addition, the cap is not constructed to provide a
self-cleaning function whereby the roots of the sprocket are continuously
cleaned of dirt build-up and the like.
SUMMARY OF THIS INVENTION
The present invention is directed to overcoming one or more of the problems
as set forth above.
The improved cushioning lug means of this invention comprises a resilient
cushioning means having a cap means mounted thereon adapted to engage the
teeth of a drive sprocket. An arcuately shaped bearing flange means,
generally conformed to each root of the drive sprocket, is secured on the
cap means to effect such engagement.
In one aspect of this invention, the bearing flange means comprises a
plurality of offset flanges whereas in another aspect of this invention a
cleaning and reinforcing flange means is secured on the cap means in
transverse relationship relative to the bearing flange means for
continuously cleaning the teeth of the drive sprocket.
BRIEF DESCRIPTION OF THE DRAWINGS
Other objects of this invention will become apparent from the following
description and accompanying drawings wherein:
FIG. 1 is a partially sectioned side elevational view of an endless track
assembly for a track-type vehicle shown engaging a drive sprocket and
having a plurality of cushioning lugs of this invention employed therein;
FIG. 2 is an enlarged sectional view, particularly illustrating one of the
cushioning lugs, taken in the direction of arrows II--II in FIG. 1;
FIG. 3 is a partially sectioned isometric view of the cushioning lug; and
FIG. 4 is a side elevational view of the cushioning lug, showing its
compressed, sprocket engaging condition during operation of the track
assembly.
DETAILED DESCRIPTION
Referring to FIG. 1, an endless track assembly 10 comprises a plurality of
track shoes 11 secured to an articulated chain 12 in a conventional
manner. Laterally spaced pairs of links 13 of the chain are pivotally
interconnected by a pin and bushing assembly 14. Each pin and bushing
assembly is adapted to engage within a notch or root defined between each
circumferentially adjacent pair of teeth 15 of a sprocket 16 for driving
the track assembly in a conventional manner.
This invention is directed to a cushioning lug means 17 preferably secured
to each track shoe 11 and disposed intermediate (mid-pitch) adjacent pairs
of pin and bushing assemblies 14 for attenuating the noise level of the
track assembly. Referring to FIGS. 2 and 3, each cushioning lug means
comprises a resilient spring means or cushioning block 18 suitably
composed of an elastomeric material, such as rubber. A hardened metallic
cap means 19 is mounted on the cushioning block and is adapted to engage
the root defined between each pair of circumferentially adjacent teeth 15
of sprocket 16, as shown in FIG. 1.
The cap means comprises a transversely extending cleaning and reinforcing
flange 20, extending the full width of lug 17, to aid in structurally
reinforcing the lug means and to continuously clean the root areas between
sprocket teeth 15 (FIG. 1). A pair of offset drive flanges or bearing
flange means 21 and 22 are secured on either side of the reinforcing
flange to extend the full length of the lug. The latter flanges extend
transversely (perpendicular) relative to the pivot axes of pin and bushing
assemblies 14 and to flange 20.
As shown in FIG. 1, flanges 21 and 22 have arcuate peripheries and profiles
generally conforming to the root defined between each circumferentially
adjacent pair of teeth 15 of sprocket 16. The offset relationship of
flanges 21 and 22 distributes the wear effects on sprocket 16 to increase
the service life thereof. The cap means, including flanges 20-22, may be
suitably composed of carburized and hardened low alloy steel, hardened
plain carbon steel or chilled iron to extend its wear capabilities.
FIGS. 2 and 3 further illustrate a mounting plate 23 disposed on each track
shoe 11 and secured thereon by a pair of bolts 24 and nuts 25. Each nut is
suitably embedded in cushioning block 18 and defines an annular recess 26
on a lower end thereof which is received in a circular mounting hole 27,
formed through mounting plate 23. Block 18 is suitably bonded between cap
means 17 and plate 23. Flanges 28 and 29 are formed on the peripheries of
cap means 19 and plate 23, respectively, to overlie edges of block 18 to
further aid in retaining the block in position therebetween.
In operation, rotation of sprocket 16 will function to drive track assembly
12 in the manner described above. Each cushioning lug means will engage
the root or notch defined between each pair of circumferentially adjacent
sprocket teeth to attenuate the overall noise level of the operating track
assembly, primarily due to the substantial bearing contact maintained as
between flanges 21 and 22 and the sprocket teeth. In addition, flange 20
will continuously function to maintain the sprocket teeth in a
substantially dirt-free condition of operation.
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Description |
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